Abstract

The rhizostome jellyfishes, Catostylus mosaicus and Phyllorhiza punctata abound in estuaries in New South Wales, Australia. P. punctata contains symbiotic zooxanthellae but C. mosaicus contains few or no zooxanthellae. Our experiment measured the rates at which NH 3, PO 4 and NO x were taken up or excreted by each species and in two controls: a “water only” control and a “mucus” control. Rates of uptake or excretion were measured as changes in the nutrient concentration of the water in the containers housing the animals over periods of 6 h. Experiments were repeated twice during the day and twice at night, under both ambient and enriched nutrient conditions. Under ambient nutrient conditions, the flux of NH 3 in the P. punctata treatment did not differ from the controls but under enriched conditions P. punctata excreted NH 3 during the night (49 μg kg −1 WW (wet weight) h −1) and took up NH 3 during the day (123 μg kg −1 WW h −1). In contrast, C. mosaicus excreted NH 3 at a rate of 1555 μg kg −1 WW h −1 during the day and 1004 μg kg −1 WW h −1 during the night under both enriched and ambient nutrient conditions. P. punctata neither took up nor excreted PO 4 but C. mosaicus excreted PO 4 at a faster rate during the day than night (173 μg kg −1 WW h −1 cf. 104 μg kg −1 WW h −1). Both C. mosaicus and P. punctata excreted NO x and, although the rate of excretion for P. punctata varied between the two experiments conducted during the day, the rate of excretion was consistently greater than for C. mosaicus (52 and 80 μg kg −1 WW h −1 cf. 26 μg kg −1 WW h −1) . Tubs containing P. punctata had a much greater concentration of dissolved oxygen at the end of the experiments conducted during the day (152% saturation) than night (60% saturation) but tubs containing C. mosaicus had a greater dissolved oxygen concentration during the night (47% saturation) than day (39%). Overall, C. mosaicus appears to recycle more inorganic nutrients to estuaries than P. punctata. Calculations of the importance of inorganic nitrogen excreted by this species during times of peak biomass in Lake Illawarra suggest that it can meet about 8% of the phytoplankton primary production requirements of N and that its inorganic N excretion rate is about 11% of measured inorganic ammonia fluxes from sediments in that system. Since the biomass of C. mosaicus often exceeds several thousand tonnes, the contribution of inorganic nutrients by this species is substantial.

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